[alexxy/gromacs.git] / src / gromacs / mdlib / vsite.h

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#ifndef GMX_MDLIB_VSITE_H
#define GMX_MDLIB_VSITE_H

#include <memory>

#include "gromacs/math/vectypes.h"
#include "gromacs/pbcutil/ishift.h"
#include "gromacs/topology/idef.h"
#include "gromacs/utility/arrayref.h"
#include "gromacs/utility/basedefinitions.h"
#include "gromacs/utility/real.h"

struct gmx_localtop_t;
struct gmx_mtop_t;
struct t_commrec;
struct t_graph;
struct t_ilist;
struct t_mdatoms;
struct t_nrnb;
struct gmx_wallcycle;
struct VsiteThread;

namespace gmx
{
class RangePartitioning;
}

/* The start and end values of for the vsite indices in the ftype enum.
 * The validity of these values is checked in init_vsite.
 * This is used to avoid loops over all ftypes just to get the vsite entries.
 * (We should replace the fixed ilist array by only the used entries.)
 */
static constexpr int c_ftypeVsiteStart = F_VSITE2;
static constexpr int c_ftypeVsiteEnd   = F_VSITEN + 1;

/* Type for storing PBC atom information for all vsite types in the system */
typedef std::array<std::vector<int>, c_ftypeVsiteEnd - c_ftypeVsiteStart> VsitePbc;

/* Data for handling vsites, needed with OpenMP threading or with charge-groups and PBC */
struct gmx_vsite_t
{
    gmx_vsite_t();

    ~gmx_vsite_t();

    /* The number of vsites that cross update groups, when =0 no PBC treatment is needed */
    int numInterUpdategroupVsites;
    int nthreads;                                    /* Number of threads used for vsites       */
    std::vector<std::unique_ptr<VsiteThread>> tData; /* Thread local vsites and work structs    */
    std::vector<int> taskIndex;                      /* Work array                              */
    bool useDomdec; /* Tells whether we use domain decomposition with more than 1 DD rank */
};

/*! \brief Create positions of vsite atoms based for the local system
 *
 * \param[in]     vsite    The vsite struct, when nullptr is passed, no MPI and no multi-threading
 * is used \param[in,out] x        The coordinates \param[in]     dt       The time step \param[in,out]
 * v        When != nullptr, velocities for vsites are set as displacement/dt \param[in]     ip
 * Interaction parameters \param[in]     ilist    The interaction list \param[in]     ePBC     The
 * type of periodic boundary conditions \param[in]     bMolPBC  When true, molecules are broken over
 * PBC \param[in]     cr       The communication record \param[in]     box      The box
 */
void construct_vsites(const gmx_vsite_t* vsite,
                      rvec               x[],
                      real               dt,
                      rvec               v[],
                      const t_iparams    ip[],
                      const t_ilist      ilist[],
                      int                ePBC,
                      gmx_bool           bMolPBC,
                      const t_commrec*   cr,
                      const matrix       box);

/*! \brief Create positions of vsite atoms for the whole system assuming all molecules are wholex
 *
 * \param[in]     mtop  The global topology
 * \param[in,out] x     The global coordinates
 */
void constructVsitesGlobal(const gmx_mtop_t& mtop, gmx::ArrayRef<gmx::RVec> x);

void spread_vsite_f(const gmx_vsite_t* vsite,
                    const rvec         x[],
                    rvec               f[],
                    rvec*              fshift,
                    gmx_bool           VirCorr,
                    matrix             vir,
                    t_nrnb*            nrnb,
                    const t_idef*      idef,
                    int                ePBC,
                    gmx_bool           bMolPBC,
                    const t_graph*     g,
                    const matrix       box,
                    const t_commrec*   cr,
                    gmx_wallcycle*     wcycle);
/* Spread the force operating on the vsite atoms on the surrounding atoms.
 * If fshift!=NULL also update the shift forces.
 * If VirCorr=TRUE add the virial correction for non-linear vsite constructs
 * to vir. This correction is required when the virial is not calculated
 * afterwards from the particle position and forces, but in a different way,
 * as for instance for the PME mesh contribution.
 */

/* Return the number of non-linear virtual site constructions in the system */
int countNonlinearVsites(const gmx_mtop_t& mtop);

/* Return the number of virtual sites that cross update groups
 *
 * \param[in] mtop                           The global topology
 * \param[in] updateGroupingPerMoleculetype  Update grouping per molecule type, pass empty when not using update groups
 */
int countInterUpdategroupVsites(const gmx_mtop_t&                           mtop,
                                gmx::ArrayRef<const gmx::RangePartitioning> updateGroupingPerMoleculetype);

/* Initialize the virtual site struct,
 *
 * \param[in] mtop  The global topology
 * \param[in] cr    The communication record
 * \returns A valid vsite struct or nullptr when there are no virtual sites
 */
std::unique_ptr<gmx_vsite_t> initVsite(const gmx_mtop_t& mtop, const t_commrec* cr);

void split_vsites_over_threads(const t_ilist*   ilist,
                               const t_iparams* ip,
                               const t_mdatoms* mdatoms,
                               gmx_vsite_t*     vsite);
/* Divide the vsite work-load over the threads.
 * Should be called at the end of the domain decomposition.
 */

void set_vsite_top(gmx_vsite_t* vsite, const gmx_localtop_t* top, const t_mdatoms* md);
/* Set some vsite data for runs without domain decomposition.
 * Should be called once after init_vsite, before calling other routines.
 */

#endif